hatchery management guide
TRANSCRIPT
-
8/3/2019 Hatchery Management Guide
1/46
cobb-vantress.com
HatcheryManagement
Guide
h
at
ch
ery
-
8/3/2019 Hatchery Management Guide
2/46
COBB Hach Maagm Gi
IntrOduCtIOn
Many changes have taken place in hatcheries in recent years, such as the introduction
of computer monitoring and control of the machines, and automation of many day-to-day
hatchery operations. Additionally, there is increasing awareness of the role of the hatchery in
disease control.
A sound understanding of the principles involved in incubating eggs and hatching chicks is
vital to coping with these changes.
This guide is designed to explain these principles as related to broiler breeding stock and to
highlight the main aspects of hatchery management from egg production to chick delivery.
We provide this guide as a supplement to your hatchery management skills so that you can
apply your knowledge and judgment to obtain the best results. This publication links with the
Cobb Breeder and Broiler Management Guides to provide technical advice from supply ofbreeding stock to delivery of broilers for processing.
Our recommendations are based on current scientific knowledge and practical experience
around the world. You must be aware of local legislation, which may influence the
management practice that you choose to adopt.
Revised 2008
-
8/3/2019 Hatchery Management Guide
3/46
Chick Embryo
InfI No development.
Day 14
Embryo turnshead towardslarge end of egg.
Day 15 Gut is drawn into
abdominal cavity.
Day 16 Feathers cover
complete body.
Albumen nearly gone.
161615151414
Day 9
Embryo starts to lookbird-like.
Mouth openingappears.
99Day 8 Feather tracts seen. Upper and lower
beak equal in length.
8Day 7 Comb growth begins. Egg tooth begins to
appear.
7
Day 2 Tissue development
very visible.
Appearance of bloodvessels.
2Day 1 Appearance of
tissue development.
1
-
8/3/2019 Hatchery Management Guide
4/46
Day 20 Yolk sac drawn
completely into body.
Embryo becomes
a chick (breathingin air cell).
Internal and externalpip.
2020Day 19 Yolk sac draws into
body cavity.
Amniotic fluid gone.
Embryo occupiesmost of space withinegg (not in the aircell).
1919Day 18 Growth of embryo
nearly complete.
Yolk sac is still on
outside of embryo. Head is under the
right wing.
1818Day 17 Amniotic fluid
decreases.
Head is between
legs.
1717
Day 13 Appearance of
scales.
Body covered lightlywith feathers.
1313Day 12 Toes fully formed. First few visible
feathers.
1212Day 11 Comb serrated. Tail feathers apparent.
1111Day 10 Egg tooth prominent. Toe nails.
10
Day 5 Appearance of
elbows and knees.
55 Day 6 Appearance of beak.
Voluntary movements
begin.
66Day 4 Eye pigmented.
44Day 3 Heart beats.
Blood vessels
very visible.
33
Development
-
8/3/2019 Hatchery Management Guide
5/46
COBB
COBB Hach Maagm Gi
COntents
Pag
1. Hachabili - th Ma of scc 12. Hach of Fil 2
3. Hachig egg Maagm 3-7
3.1 K Poi o egg soag 5
3.2 Opimm egg soag Coiio 6
3.3 effc of egg soag 7
3.4 sig egg 7
3.5 sig tim 7
4. s Opaio 8-124.1 Vilaio 8
4.2 tmpa Cool 10
4.3 Hmii 11
4.4 tig 12
5. egg taf 13
6. Faco Iflcig Chick si 14
7. Opaio of Hach 14
7.1 Vilaio a Hmii 14
7.2 tmpa 14
8. Chick Pll a Pocig 15-18
8.1 Fah sxig Boil Chick 16
8.2 th Hach Wiow 17
9. Hach Wa dipoal 19
10. Chick tapo 19
11. Ali 20
11.1 Oxg Availabili 20
11.2 Wa Lo 20
12. Maiac 21
12.1 Pvaiv Maiac 21
13. Hach Aomaio 22
-
8/3/2019 Hatchery Management Guide
6/46
COBB
COBB Hach Maagm Gi
COntents
Pag
14. Hach dig 23-2614.1 sc 23
14.2 Iallaio of Hach a Icbaio Plm 24
14.3 Locaio 26
15. Hach saiaio 27-28
16. rco 29
17. toblhooig 30-3517.1 Majo Ca of egg Failig o Hach 30
17.2 sag of emboic dvlopm 31
18. Mic Covio 36
Li of diagam
Coollig Faco 1
Hach of Fil 2
Hachig egg Vaiaio 4
egg tmpa Flow Cha 5
Opimm tmpa rag fo egg soag 6
Hach Vilaio - h Coc -p 9
Ha Pocio of Icbaig egg 9
rlaiohip Bw Avag Hach tim, 10
Hachabili a tmpa
Opimm Wigh Lo of egg dig Icbaio 11
rla Chick Wigh 14
Fah sxig Boil Chick 16
th Hach Wiow 18
exha Plm 26
Popi of diifca Chmical u i Hachi 28
Cal a Cal Bako 30
Pchomic Cha 35
Hach ri Bako 37
-
8/3/2019 Hatchery Management Guide
7/46
COBB 1
COBB Hach Maagm Gi
1. HAtCHABILIty - tHe MeAsure OF suCCess
The measure of success of any hatchery is the number of first-quality chicks produced.This number expressed as a percentage of all eggs set for incubation is normally termed
hatchability.
Hatchability is influenced by many factors. Some of these are the responsibility of thebreeding farm and others are the responsibility of the hatchery. Mating activity is a goodexample of a factor entirely influenced on the farm. The hatchery cannot alter it, althoughmany other factors can be influenced by both the farm and the hatchery.
Controlling factors
Farm HatcheryBreeder Nutrition Sanitation
Disease Egg Storage
Mating Activity Egg Damage
Egg Damage Incubation - management
Correct Male and Female BWof setters and hatchers.
Egg SanitationChick Handling
Egg storage
Thus, the breeder farm has a major influence on results at the hatchery
and it is essential for the farm and hatchery to work closely together.
-
8/3/2019 Hatchery Management Guide
8/46
COBB2
COBB Hach Maagm Gi
2. HAtCH OF FertILeBecause hatcheries have no influence over fertility, it is important to consider hatch of fertilein addition to hatchability. The hatch of fertile percent is a measurement of the efficiency
of the hatchery machinery. Hatch of fertile takes into account the flock fertility as well ashatchability; it is percent hatch divided by percent fertile times 100.
Example: (86.4% Hatch 96% Fertile) * 100 = 90% Hatch of Fertile
The following example clearly shows the value in calculating Hatch of Fertile.
Even though Hatchery B has the lowest % Hatch, it has the highest % Hatch of Fertile.This is because % Hatch was limited by fertility and not by the hatcheries ability to effectivelyhatch eggs; therefore, Hatchery B is clearly performing the best, provided chick quality isequal.
At peak production, flocks should be achieving at least 96.7% fertility and 93.5% hatch offertile. Fertility and hatch percent standards are set according to the age of the breeders.
The benefits of recording Hatch of Fertile are as follows:1. Separates fertility and hatchery problems
2. Allows you to focus on the problem
3. Expedites troubleshooting
Hatchery % Hatch % Fertile % Hatch of Fertile
A
B
C
86
82
84
97
91
94
88.66
90.11
89.36
Breeder age Hatch of fertile
(weeks) (%)
25 to 33 >90.2
34 to 50 >91.8
51 to 68 >88.6
-
8/3/2019 Hatchery Management Guide
9/46
COBB 3
COBB Hach Maagm Gi
3. HAtCHInG eGG MAnAGeMent
Optimum hatchability and chick quality can only be achieved when the egg is held underoptimum conditions between laying and setting in the incubator. Remember that a fertile
egg contains many living cells. Once the egg is laid, its hatching potential can at best bemaintained, not improved. If mishandled, hatching potential will quickly deteriorate.
Use of floor eggs depresses hatchability. They should be collected and packedseparately from nest eggs, and clearly identified. If they are to be incubated, they shouldbe treated separately.
Prevent hair-line cracks by handling eggs carefully at all times.
Place hatching eggs carefully into the setter tray or transport tray, small (pointed) enddownward.
Take care with egg grading. During the early production period check the weight ofborderlined sized eggs to select hatching eggs.
Store the eggs in a separate room in which the temperature and humidity are controlled.
Keep the farm egg handling room clean and tidy. Maintain good vermin control in youregg room. Refuse to accept dirty egg containers and buggies from the hatchery, andtake care of them while on your premises.
Good egg
1.
2.
3.
4.
5.
6.
-
8/3/2019 Hatchery Management Guide
10/46
COBB4
COBB Hach Maagm Gi
Remove and discard eggs unsuitable for hatching. These are: Dirty
Cracked
Small (According to Hatchery Policy)
Very large or double yolk Poor shells - but any shell color should be acceptable for hatching
Grossly mis-shapen
Blood stained
Elongated
Wrinkled
Cracked
Ronded
Dirt
Toe pnched
Small and doble
-
8/3/2019 Hatchery Management Guide
11/46
COBB 5
COBB Hach Maagm Gi
Eggs should be collected from the farms and transported to the hatchery at least twice aweek. There are three storage areas: farm egg room, transport, and hatchery egg room. It isimportant to match the conditions in each of these situations as closely as possible to avoidsharp changes in temperature and humidity, which can lead to condensation (sweating) oneggs or eggs being chilled or overheated. Also, temperature fluctuations must be aviodedduring transport and storage. The temperature decrease must be a smooth transition whencooling the eggs from the hen house to the hatchery egg room, and also a smooth transitionwhen warming the eggs from the hatchery egg room to the setter machine.
3.1 Key POInts On eGG stOrAGe
Egg Temperatre Flow Chart (for fresh eggs)
Hen House
75 - 85 F
24 - 29 C
On Farm Egg Room*(see note below)
70 - 77 F
21 - 25 C
Preheating Area
75 - 80 F
24 - 27 C
EggTransportation
Truck
68 - 73 F
20 - 23 C
Setter Machine
99.5 - 100 F37.5 - 37.8 C
Hens Body
104 - 106 F40 - 41 C
Hatchery Egg Room
(see item 3.2 for details)66 - 70 F
19 - 21 C
NOTE:*Lower temperaturefor eggs stored at thefarm.
Higher temperaturefor eggs transportedto the hatchery daily.
-
8/3/2019 Hatchery Management Guide
12/46
COBB6
COBB Hach Maagm Gi
3.2 OPtIMuM eGG stOrAGe COndItIOns
A relationship exists between the length of time eggs are stored and the optimumtemperature and humidity for best hatchability. Generally, the longer eggs are to be stored,the lower the storage temperature and vice versa.
69
68
67
66
65
64
63
62
61
60
590 3 6 9 12 15 18
Days of storage
20
19
18
17
16
15
21
F C
Optimm temperatre range for egg storage
-
8/3/2019 Hatchery Management Guide
13/46
COBB 7
COBB Hach Maagm Gi
The main effects of storing eggs are:
Storage prolongs incubation time. On average, one days storage adds one hour to
incubation time. This must be taken into account when eggs are set, so fresh and storedeggs should be set at different times.
Hatchability is depressed by prolonged storage. The effect increases with storage timeafter the initial six-day period, resulting in losses of 0.5 to 1.5% per day with the percentincreasing as storage extends further.
Chick quality will be affected and hence broiler weights can be depressed in chicks fromeggs that have been stored for 14 days or more.
1.
2.
3.
3.3 eFFeCts OF eGG stOrAGe
Gas exchange can occur through the pores in the egg shell during storage. Carbon dioxidediffuses out of the egg, and its concentration declines rapidly during the first 12 hours after
the egg is laid. Eggs also lose water vapor while in storage. This loss of both carbon dioxideand water contributes to the loss in hatchability and chick quality after storage.
Storage conditions must therefore be designed to minimize these losses. Most eggs areplaced in open-sided cases or farm racks, but some are placed in solid covered cases.Allow covered eggs to cool down and dry thoroughly before casing to avoid condensationand subsequent mold growth.
To avoid temperature shock to the embryo and consequent condensation on the shell, eggs
should be removed from the egg room and pre-warmed before setting. Ideally, eggs shouldbe pre-warmed in a purpose-built room at around 75-80 F (24-27 C) so that all can achievethe desired temperature.
Effective air circulation and correct room temperature are essential to achieve the necessaryeven pre-warming of eggs. Uneven pre-warming increases variation in hatch time - preciselythe opposite of the desired effect of pre-warming.
Even with good air circulation, it will take 8 hours for eggs on a buggy to reach 78 F (25 C),irrespective of their initial temperature. With poor air circulation, it may take twice as long.
So the recommendation is to: Provide good air circulation around the eggs.
Allow 6 to 12 hours for pre-warming.
3.4 settInG eGGs
3.5 settInG tIMe
Three factors influence the total incubation time of eggs:
Temperatre of incbation:normally fixed for any hatchery, but to achieve a desiredpull time for chicks, variation in the time at which eggs are set can be modified accordingto age and size of eggs.
Age of the eggs: stored eggs take longer to incubate. You will need to add extraincubation time if eggs are stored over 6 days. (1hour per day of storage)
Size of the eggs: larger eggs take longer to incubate.
1.
2.
3.
-
8/3/2019 Hatchery Management Guide
14/46
COBB8
COBB Hach Maagm Gi
4. setter OPerAtIOn
Energy consumption, labor usage, durability, maintenance and capital costs influencethe design of incubators. The optimum physical conditions for any broiler embryo to growsuccessfully are:
Correct temperature
Correct humidity
Adequate gas exchange
Regular turning of eggs
Commercial incubation systems fall into three main categories:
Multi-stage fixed rack
Multi-stage buggy loading Single-stage buggy loading
The actual quantity of eggs to be loaded in each machine at each set, the frequency ofloading (once or twice a week) and the actual position of the set within the machine willvary with each manufacturer. Operate the machine according to the rules laid out by themanufacturer. Do not abuse them.
Setters normally draw fresh air from the room in which they are situated. This fresh air
supplies oxygen and moisture to maintain the correct Relative Humidity. Air leaving thesetter removes carbon dioxide and excess heat produced by the eggs.
The air supply to the setter room should be 8cfm (13.52 cubic meters hr) per 1000 eggs.See chart on page 9 (Hatchery Ventilation - Correct set-up).
All setters have a humidity source that can control various levels of relative humidity.The fresh air supplies relatively little moisture, and so to reduce the load on the internalhumidification system, air entering the machines is pre-humidified to closely match theinternal relative humidity. The temperature of this air should be 76-80 F (24-27 C).
Multi-stage setters require a constant amount of air. It should be adjusted so thatthe carbon dioxide level within the machine does not exceed 0.4%. Most fixed rackmachines run at 0.2-0.3% and buggy machines 0.3-0.4% but these elevated CO2 levelsare not required.
1.
2.
3.
4.
4.1 VentILAtIOn
-
8/3/2019 Hatchery Management Guide
15/46
COBB 9
COBB Hach Maagm Gi
Egg Receiving
Holding Area
Setter Room
Hatcher Room
Chick Holding RoomsChick Take-off
Wash Room
Clean Equipment
Room
Hallways
66-70
66-70
76-80
76-80
72-7572-75
72-75
72-75
75
19-21
19-21
24-27
24-27
22-2422-24
22-24
22-24
24
60-65
60-65
55-62
55-62
65-7065-70
65-70
N/A
N/A
Neutral to +0.01
Neutral to +0.01
+0.015 +0.02
+0.005 to +0.01
Neutral-.015 to -.025
-.015 to -.025
Positive
Neutral
2
8
17
40
3.38
13.5
28.7
67.6
(5 minute airexchange to room)
(0.5 minute airexchange to room)
(0.5 minute airexchange to room)
(1 minute airexchange to room)
(5 minute airexchange to room)
Ventilation
Rate
Temperature Relative
Humidity
Area Pressure in
relation to atmosphere:
(cfm/1000)
(m3/hr/1000) F CAreas (%) (in H
2O)
Hatchery ventilation - the correct set-up
to
21.6
17.28
12.96
8.64
4.32
00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
250
200
150
100
50
0
Kjoules/egg/day Watts/1000 eggs
Age (days)
Heat prodction of incbating eggs
Pressure Conversion (0.01 in H20 = 2.5 Pascals, 0.01 mbar, 0.1016 mm H20)
-
8/3/2019 Hatchery Management Guide
16/46
COBB10
COBB Hach Maagm Gi
Relationship between aerage hatch time, hatchabilit and temperatre
100
90
80
70
60
50
40
30
20
10
0
35 36 37 38 39 40
Hatchability % Average hatch time (days)
Temperature
C
24
23
22
21
20
19
95 96 97 98 99 100F 101 102 103 104 105
4.2 teMPerAture COntrOL
Temperature determines the metabolic rate of the embryo and hence its rate of development.
In a multi-stage machine, temperature should remain constant. The optimum temperaturefor both hatchability and chick quality will differ depending on the type of incubator.Higher or lower temperatures than the manufacturers recommendations will lead tofaster or slower development and consequent reduction in hatchability.
In single-stage incubation, temperature can be altered for the growth of the embryo
and increased animal heat production, starting at a higher temperature and reducing instages through transfer.
Incorrect balance in loading multi-stage setters can create major temperaturevariations. Partly filled machines may not achieve the correct temperature and prolongincubation, while loading double sets can create overheating problems. Both conditionswill adversely affect hatchability and chick quality.
1.
2.
3.
-
8/3/2019 Hatchery Management Guide
17/46
COBB 11
COBB Hach Maagm Gi
4.3 HuMIdIty
During incubation, water vapor is lost from the egg through the pores of the shell.The rate at which this moisture is lost depends on the number and size of the pores(the gas conductance of the shell) and the humidity in the air around the egg. For besthatchability, an egg must lose 12% of its weight by 18 days of incubation.
Due to differences in shell structure and hence gas conductance, when all eggs areincubated under the same humidity conditions, there will be a variation in moisture loss.With eggs from broiler breeders, this variation does not normally have any significanteffect on the hatchability. However, when age, nutrition or disease reduces the eggsquality, it may be necessary to adjust incubator humidity conditions to maintain optimumhatchability and chick quality.
1.
2.
Optimm weight loss of eggs dring incbation (mlti-stage)
12
11
10
9
8
7
6
5
4
3
2
1
00 212019181716151413121110987654321
Days
Weight Loss %
-
8/3/2019 Hatchery Management Guide
18/46
COBB12
COBB Hach Maagm Gi
4.4 turnInG
Eggs must be turned during incubation. This prevents the embryo from sticking to shellmembranes, particularly during the first week of incubation, and aids development of
the embryonic membranes.As embryos develop and their heat production increases, regular turning will aid airflowand assist cooling.
1.
2.
-
8/3/2019 Hatchery Management Guide
19/46
COBB 13
COBB Hach Maagm Gi
5. eGG trAnsFer
Eggs are removed from the setter after 18 or 19 days and transferred to the hatcher trays.This is done for two reasons. The eggs are laid on their sides to allow free movement of thechick out of the shell at hatching. It also assists hygiene; large quantities of fluff are generatedduring hatching and could spread this potential contamination around the hatchery.
Transferring too early or too late will result in embryos being subjected to sub-optimalconditions causing lower hatchability. This should be considered in any decision to vary thetransfer time. Transfer times will differ according to the different types of setters (18 to 19days are usually the norm).
1.
2.
3.
4.
5.
6.
The transfer operation should proceed smoothly and quickly to avoid cooling the eggsas this will delay hatching.
At transfer, eggs may be candled to enable clears (infertiles and early dead germstogether with rots) to be removed and counted.
Shells are more brittle at this stage because the embryos have withdrawn some of theshell calcium for skeletal development. Therefore, care must be taken when transferringeggs to avoid breakages. Rough handled eggs at this stage may cause ruptures andhemorrhages. Automated transfer equipment enables this task to be carried out moregently than a manual system.
Ensure the hatcher trays are properly washed and allowed to dry before eggs aretransferred. Eggs in wet trays will cool down while the water is evaporating in thehatcher. Hatchers must be dry and up to proper temperature proir to transfer.
Dispose of rots and exploders in a container of disinfectant.
In-ovo egg injection systems are now available, which may be considered for Mareksprotection and administration of other vaccines. Manufacturers recommendations foruse must be followed.
-
8/3/2019 Hatchery Management Guide
20/46
COBB14
COBB Hach Maagm Gi
6. FACtOrs InFLuenCInG CHICK sIze
1.
2.
3.
Egg size is the main factor affecting chick size. Chick weight is normally 66-68% of eggweight. Thus, chicks from eggs averaging 60 grams will on average weigh around 40grams. Individual chick weights are likely to range from 34 to 46 grams.
Egg weight decreases because of water loss during incubation. This also contributes tochick weight variation from eggs of the same size.
Length of time between hatching, pulling, and delivery also affect final chick weight.Time spent in the hatcher will have a greater effect than time at the lower temperatureof the chick room or delivery vehicle.
75
70
65
0 24 48 72
%o
feggweight
Hatch from shell Time (hours)
Related Chick Weight
7. OPerAtIOn OF HAtCHers
Most broiler hatcheries hatch twice a week from each hatcher. The hatcher will be washedand disinfected between hatches, which means durability of construction and ease ofcleaning are vital factors.
Air supplied to the hatcher fresh air plenum should be 17cfm per 1000 eggs (28.7 Cubicmeters per hr). From point of transfer to pipping, airflow and humidity in the hatchershould be maintained the same as in the setter. Moisture is important during the hatchingprocess to ensure the shell membranes remain soft and pliable so that the chick canescape unhindered. When pipping starts, the moisture level will rise causing the wet bulbtemperature to also rise. At this point, the damper will require adjustment to maintain thislevel. Additional moisture may be required from the spray system. A few hours before takeoff the damper is opened to increase air supply for the chicks.
Hatcher temperatures are usually slightly lower than those of the setter to reduce the riskof overheating.
7.1 VentILAtIOn And HuMIdIty
7.2 teMPerAture
-
8/3/2019 Hatchery Management Guide
21/46
COBB 15
COBB Hach Maagm Gi
8. CHICK PuLL And PrOCessInG
Chicks are ready to be taken off when most of them are dry and fluffed up, with a few(about 5%) still having some moisture on the backs of their necks. A common mistake is to
allow chicks to spend too long in the hatchers so they dehydrate excessively. Dehydration ofchicks may result from incorrect adjustment of setting time for egg age or excessive weightloss during incubation. Similarly, if they are green, e.g., not yet ready, check setting timesand also check for opportunities for the eggs to have become cooled down in incubation,reducing the rate of development.
Upon pulling chicks, they have to be separated from their debris, graded into first qualityand culls, and counted into boxes. Some hatcheries carry out additional operations such as:
Sexing, primarily using feather-sexing with broilers but also Vent sexing withbreeding stock
Vaccination, sprayed or injected, using hand or automatic vaccinatorsBeak conditioning
1.
2.
3.
4.
During processing, chicks must be held in a controlled environment that preventsoverheating or overcooling. They must not be overcrowded in the boxes or while onconveyers. To reduce weight loss from the chicks, maintain the correct humidity in thechick holding areas. Aim for 23 C (73 F) with a relative humidity of 65 - 70%.
Automated equipment has been developed to improve chick handling while reducingthe number of staff involved.
Avoid rough handling of chicks in manual operations and when equipment is used.Equipment must be correctly and regularly maintained.
Clean all equipment thoroughly after each hatch. All chick contact areas such asconveyers and carousel must be easily accessible for cleaning.
-
8/3/2019 Hatchery Management Guide
22/46
COBB16
COBB Hach Maagm Gi
8.1 FeAtHer sexInG BrOILer CHICKs
Broiler chicks in the feather sexable - slow feather format, can be feather sexed at day oldas illustrated below.
In the non-feather sexable - fast feather format, both males and females will show the samepattern of feather development illustrated by the diagram below relating to females.
TOP OF WING
A-Primaries
B-Coerts
At hatching all
feathers short
but coverts
extend only 12
to 34 length
of primaries
After several
hours feathers
longer but
coverts still 12
to 34 length
of primaries
1. Spread wing out like a fan.
2. Look at feathers on outer joint - bottom row of feathers are primaries, top row of
feathers are coverts.
3. When the bottom row (primaries) of feathers is longer than the top row (coverts),
the chick is female.
4. When the bottom row (primaries) of feathers is the same length, or shorter than the
top row (coverts), the chick is male.
Coverts and
primaries
extend
same length
Coverts extend
slightly beyond
primaries
Coverts extend
greatly beyond
primaries
FEMALESCoerts alwas shorter
than primaries
MALESCoerts alwas as long as
or longer than primaries
-
8/3/2019 Hatchery Management Guide
23/46
COBB 17
COBB Hach Maagm Gi
8.2 tHe HAtCH WIndOW
The hatch window indicates the number chicks hatched after the eggs have been transferredfrom the setter to the hatcher.
If the eggs are hatching too early, the chicks become susceptible to problems such asdehydration. Dehydration of chicks this early could lead to increased 7 and 14 day mortalityand poor broiler performance. If the chicks are hatching too late the result could be poorhatchability, chick quality problems, increased pipped eggs and live embryo unhatched eggs.
Factors affecting earl hatch inclde:
Factors affecting late or delaed hatching inclde:
Extended pre-heating periods
Setting eggs too early. Too many hours of incubation
Incorrect setter/hatcher temperature and humidityHot spots inside the setter and hatcher
Incorrect ventilation
Seasonal temperature changes effecting the hatchery environment
Too many fertile eggs in the hatcher
Egg size
Setting eggs too lateIncorrect setter/hatcher temperature and humidity
Incorrect ventilation
Seasonal temperature changes effecting the hatchery environment
Eggs which have been stored for long periods
Eggs which have stored at too low a temperature
Incorrect setting patterns in multi-stages machines
Disease and fertility problems
-
8/3/2019 Hatchery Management Guide
24/46
COBB18
COBB Hach Maagm Gi
Ideal % Hatched
Hour
100%
80%
60%
40%
20%
0%-43 -38 -33 -23 -13 0
Top Middle Bottom
The bar graph above indicates eggs which were in the top, middle and bottom positions inthe setter and then transferred to the hatcher.
Ideally, no more than 25% of the total hatch should be hatched 23 hours before pull and morethan 75% of the total hatch should be hatched 13 hours before pull.
This bar graph indicates the correct number of chicks hatching spread over the 23 hoursprior to pull. The number of chicks hatched in each hatcher basket / tray should be eventhroughout the hatcher.
Ideal Hatch Spread
Hour
70
60
50
40
30
20
10
0
-43 -38 -33 -23 -13 0
Top Middle Bottom
-
8/3/2019 Hatchery Management Guide
25/46
COBB 19
COBB Hach Maagm Gi
9. HAtCHery WAste dIsPOsAL
With an average of 85% hatchability, 15% of the eggs will be either infertile or contain deadembryos. These eggs, together with the eggshells that remain after pulling chicks, constitute
hatchery waste. Legislation in some countries now prohibits the incorporation of hatcherywaste into by-product meal due to the risk of spreading pathogenic organisms. There arevery few profitable outlets for this material and most hatcheries will have to dispose of thisas waste.
1.
2.
Unhatched eggs from the hatcher tray should be macerated to destroy any unhatchedembryos. Pipped eggs and cull chicks should be destroyed using carbon dioxide gas orother locally acceptable procedure.
Macerated debris can be augured into a bin or trailer, or removed by vacuum into asealed storage hopper. This should be disposed of according to local practice andenvironment constraints.
10. CHICK trAnsPOrt
Specially designed vehicles must be used to control the chicks environment throughout thejourney from hatchery to growing farm.
1.
2.
3.
4.
5.
6.
7.
8.
9.
The minimum ventilation rate needed to satisfy adequate oxygen is 20 CFM (34 m3/hr)per 1000 chicks during winter weather, and twice this amount during hot weather. Thevehicle should be equipped with an auxiliary heating system but may use fresh ambientair for cooling. If summer air temperatures exceed 86 F (30 C), cooling equipment is
required.
The vehicle cab should have a display showing the temperature within the load toenable the driver to adjust air vents for cooling.
Chicks should be held at an in-box temperature of about 90 F (32 C) that can usuallybe achieved by a vehicle air temperature of 75 F (24 C) with plastic boxes or 71 F(20 C) with cardboard boxes.
Chicks delivered in plastic boxes require greater care to prevent overheating or chillingthan those in cardboard. Ensure the vehicle has adequate heating and cooling tohandle plastic boxes.
Boxes must be correctly stacked and spaced to allow free air movement around them.Each row of boxes should be locked with a bar running the full width of the vehicle toprevent any movement during the journey.
The vehicles can be provided with a rear plastic curtain to help retain heat while chicksare being unloaded.
Chick delivery drivers must be well trained and conscientious. Each driver should startthe day with clean clothing and should change into fresh coveralls/footwear for eachdelivery. It is preferable for drivers not to enter the poultry house.
Power wash delivery vehicles with detergent/disinfectant on each return to the hatchery.Vehicles should carry a disinfectant spray so that the wheels can be cleaned between
farms if delivering to more than one location in a day.
Chick boxes returning to the hatchery represent a high health risk. They must be keptseparate and thoroughly washed and disinfected before re-use.
-
8/3/2019 Hatchery Management Guide
26/46
COBB20
COBB Hach Maagm Gi
11. ALtItude
In several countries, poultry are produced at relatively high altitudes. Hatcheries operatedat high altitudes experience reduced hatchability, with much greater effects above 2500 ft
(762 m).
Barometric pressure declines with altitude, as does partial pressure of oxygen and absolutehumidity. Fresh air ventilating will tend to be colder and drier than at sea level. Incubatorswith poor temperature or humidity control systems will be less able to cope with theseconditions. Hatchability problems at high altitudes are due to reduced availability of oxygenin the air and increased moisture loss from the eggs.
The oxygen percentage of fresh air is always 21.6% and room/machine conditions mustnever go below 20%. The reduced partial pressure at altitude provides less oxygen from agiven volume of air. This pressure reduction results in lower blood oxygen level and loweravailability to the tissues.
Water loss from an egg during incubation is greater at high altitudes because water vapordiffuses through the shell more rapidly. The conductance of the eggshell becomes extremelyimportant at high altitudes. Setters will need to be adjusted to ensure that the weight loss ofthe egg is 12% by 18 days of incubation.
11.1 OxyGen AVAILABILIty
11.2 WAter LOss
-
8/3/2019 Hatchery Management Guide
27/46
COBB 21
COBB Hach Maagm Gi
12. MAIntenAnCe
As hatcheries become larger and more automated, the need for preventative maintenancebecomes crucial. Below are some suggestions:
1.2.
3.
4.
5.
6.
7.
Obtain manufacturers recommendations for routine servicing and maintenance.Carry out regular maintenance based on these guidelines and your own experience.
Perform a thorough inspection and cleaning at least once a year on multistage setters.
The turn-around time for hatchers is extremely rapid and leaves little time for servicingand repair. Have a spare machine to enable essential repairs to be carried out whennecessary.
Keep a stock of regularly required spare parts and maintain an accurate inventory ofitems purchased and used.
Make sure staff who operate setters and hatchers are properly trained and familiar with
their operation and have a procedure to follow in the event of machine failure.Ensure adequate safety precautions are adopted. Provide the necessary guards andsafety switches. Ensure all working practices comply with safety legislation. This is amanagement responsibility.
12.1 PreVentAtIVe MAIntenAnCe
Calibrate machines
Calibrate rooms
Check moisture loss
Check pipping
Check spread in hatch time (first chicks to final chicks)
Verify that programs are yielding intended results
Share information between management and maintenance personnel
-
8/3/2019 Hatchery Management Guide
28/46
COBB22
COBB Hach Maagm Gi
13. HAtCHery AutOMAtIOn
1.
2.
3.
4.
5.
Because of increasing hatchery size, and increased cost of labor, considerableopportunities may exist for automating many of the labor-intensive operations in
hatcheries.As a broad guide, a staffing level of one employee per one million chicks per year(not including drivers) is the norm without automation, or one employee per two millionchicks per year with automation.
Machines are available to:
a. Grade eggs before setting
b. Candle and transfer eggs at 18 days
c. Perform in-ovo vaccination
d. Separate chicks from debrise. Count chicks
f. Spray, vaccinate and box chicks
g. Remove debris
A range of conveyors, elevators and carousels are available to speed up grading,sexing and other operations which need to be manually performed.
Much of this equipment is precision made and very expensive and only very largehatcheries can justify its use. Nevertheless, smaller hatcheries can achieve benefits
from equipment such as vacuum transfer machines and chick-grading carousels, whichare inexpensive but deliver considerable productivity benefits.
Productivity improvements are realized by:
a. Gentler handling of eggs to reduce breakage
b. More precise vaccination of the chicks
c. More accurate counting of chicks
d. Less fatigue on operators and the creation of a better working environment
When selecting equipment, ensure that it can be disinfected easily, quickly and
effectively. Egg and chick handling equipment should not contribute to crosscontamination between eggs or between chicks.
-
8/3/2019 Hatchery Management Guide
29/46
COBB 23
COBB Hach Maagm Gi
14. HAtCHery desIGn
Good design is essential for cost-effective hatchery operation. Hatcheries form part of thefood chain and their design must therefore incorporate food hygiene standards.
The conditions provided to maintain embryonic growth in the incubators are also ideal for thegrowth of bacteria and molds. The outer surfaces of eggs must be free from contaminationand all room surfaces, items of equipment and incubators must be designed to allow simple,regular and effective cleaning and sterilization.
1.
2.
Durable wall and floor finishes and easy-to-clean drains. Wall surfaces should have
a minimum of joints and fastenings that impede effective cleaning. A good floor finishcan be obtained with a cement incorporating a hard stone aggregate, or topped witha self-leveling epoxy which has certain advantages over the more traditional finishes.The floor must be sloped to drains in each room of the hatchery. All drains need to betrapped, particularly in hatching and pull areas, to prevent blockages from eggshell anddebris. The entire drainage system must be designed to handle large quantities of washwater and solid matter.
A biosecure flow of eggs, chicks and equipment through the building. Clean and dirtyareas must be separated to prevent cross-contamination by fluff that can be carriedaround the hatchery on air currents, on staff clothes and on equipment. The ventilation
system must ensure that air moves from the clean to the dirty areas and never thereverse, e.g., in the same direction as the eggs, from setters to hatchers. Ventilationsystems themselves need to be suitable for periodic cleaning. In this context, thepolythene air duct offers many advantages over steel trunking systems that are difficultto clean.
14.1 struCture
Hatcheries should have the following features:
-
8/3/2019 Hatchery Management Guide
30/46
1.
2.
3.
4.
5.
1.
a.
b.
COBB24
COBB Hach Maagm Gi
INTRODuCTIONWith the introduction of a dependable variable speed fan and a pressure sensing and
controlling device, it is now possible to successfully exhaust a hatcher or incubator into acontrolled plenum.
ADvANTAGESCreating a hatcher or incubator plenum offers several advantages:
Modifications of hatchery construction designs can now vary from the traditional Tshaped building, because hatchers will no longer require an exterior wall to exhaust.
Controls the variable atmospheric conditions that may prevent the correct exhaust ofthe hatchers or incubators.
Eliminates all ductwork that must be balanced, monitored, and properly adjusted for
consistent machine operation.Aids in hatchery sanitation and cleanup and reduces man-hours needed for tediousduct cleaning.
Reduces or eliminates chick down exhausted into the atmosphere.
INSTALLATIONFollowing is a step-by-step guide to installing the plenum with variable speed fan andpressure control:
Setters
For the setter machine plenum take the total number of machines X 500 cfms to determinethe cfms required to maintain a neutral pressure (0.00) to atmosphere in the chamber. Thesetter plenum should be above the machines and cover the entire surface area of the settersto help with heat loss from the machines. The air must be exhausted to atmosphere awayfrom the fresh air intake.
HatchersFor the hatcher machine plenum take the total number of machines that will be controlledby one plenum X 450 cfms per machine to determine the fan capacity needed to insurethe plenum is always maintained at a neutral (0.00) pressure to atmosphere. The hatcherplenum must be behind the machines at floor level and exhausted to atmosphere. If an
exhaust from a machine falls directly in front of the exhaust fan the exhaust from themachine should be turned down toward the floor. The air must be exhausted to atmosphereand away from any fresh air supply intake.
All pressure control fans must be fitted with a good back draft. If the fan is installed on achimney there must be a back draft shutter fitted at the bottom of the chimney to eliminatethe chimney effect from altering the ability of the fan to accurately control the pressure.
Properly locate the pressure sensing unit and tubes. There are two options:
14.2 InstALLAtIOn OF HAtCHer And InCuBAtOr PLenuMs
Measurement from the plenum to the exterior of the building. (Recommended)
This is called the atmospheric reference point.Measurement from the plenum to the hatcher or incubator bay. (When this is donethe pressure for the plenum must be set as negative as the room is positive to allowthe plenum to be neutral to atmosphere.)
-
8/3/2019 Hatchery Management Guide
31/46
COBB 25
COBB Hach Maagm Gi
2.
3.
Construct the plenum carefully:
Provide a back-up pressure-monitoring device:
The sensor tubes should never be run more than 25 feet (7.7 meters) to the outside ofthe building or used for more than one sensor unless the size of the tube is increased orplumbed into PVC pipe running throughout the hatchery to the outside. The outside sensorshould be installed in a manner that will take the wind influence away from the sensor.
The correct location of these sensors must be established by monitoring and recording theoperation of the hatcher or incubators. However, the plenum itself needs to be sealed fromthe hatcher or incubator bay as well as to outside to avoid the sensor getting a false readingfrom the pressurized bay.
a.
b.
c.
d.
e.
f.
A magnahelic shall be located on each plenum, sensing the same pressure that thecontrollers for the variable speed fans are sensing. Locate the magnahelic directlybeside the controller, so comparative readings may be easily monitored.
Slope the roof at an angle of approximately 45 from the top of the machines to thewall for ease of clean up.
Mount waterproof strip lights horizontally for maximum lighting.
Locate the variable fan as high as possible in the plenum to allow chick down tosettle out on the floor.
Locate the fan as far away as possible from hatcher exhausts.
Provide a drain in each plenum if possible for ease in clean up.
Provide a gutter on the backs of the hatchers with a mounting bracket for verticalplenum panels. This will allow the sanitation crew to easily clean the tops of thehatchers. The gutter needs to have a slight pitch toward one end with drain plugsplaced as needed.
SuMMARyThe exhaust plenum offers numerous advantages in the hatchery. Management of theexhausted air is a definite improvement. This concept should be considered for newconstruction or as a way to improve an older facility that is being upgraded.
-
8/3/2019 Hatchery Management Guide
32/46
COBB26
COBB Hach Maagm Gi
1.
2.
3.
All hatcheries must be provided with an automatic standby generator to providesufficient power to operate the hatchery should the main supply fail.
Alarm systems should indicate power or systems failure, and alert hatchery personnelto the problem so that it is rapidly located and dealt with.
All incubators should have secondary alarm systems to indicate high or low
temperatures independent of either the main electricity supply or the machines owncontrol systems. This is particularly important with hatchers where component failurecan lead to the complete loss of chicks very rapidly.
14.3 LOCAtIOn
Hatchery location is inevitably a compromise between the disease risks of a populatedpoultry area, the transport costs of eggs and chicks, the availability of labor, and the overalltransport network.
Standb and Alarm Sstems
Hatcher
C.
E.
A.
Ab.
Ac.
D.
F.
B.
HVACRoof Line
Exhast Plenm
Eqipment Needs:
A. Variable speed fan incorporating a wind protection hood and back draft shutters
Ab. Back draft shutter
Ac. Wind protection hood
B. Plenum chamber
C. Input air supply
D. Exhausted air to the plenum chamber
E. 45 Degree angle
F. Exhausted air to the outside
-
8/3/2019 Hatchery Management Guide
33/46
COBB 27
COBB Hach Maagm Gi
15. HAtCHery sAnItAtIOn
1.
2.
3.
4.
5.
6.
7.8.
A sanitation program should be devised to control contamination, and the results ofthe program should be checked regularly using standard bacterialogical monitoring
procedures (agar plates and swabs).Sources of contamination other than infected eggs and chick fluff are air, people(both workers and visitors), animals such as rats and mice, wild birds and insects, andequipment such as boxes, trays and buggies.
Ensure all workers and visitors wear suitable protective clothing. It is good practice touse different colored uniforms according to location (clean or dirty part of the hatchery)or task. This helps to identify incorrect movement of workers and hence possible cross-contamination.
Before using any disinfectant, it is important to remove all organic matter. For example,hatchers should be washed out thoroughly with water and detergent before disinfection.
Disinfectants must be used strictly in accordance with the manufacturers instructions.Not all disinfectants are compatible; most are toxic and must be handled with care.
Ensure that the hatchery staff is aware of the correct storage, handling, andmixing requirements of the disinfectants used. Obtain product data sheets from themanufacturers and follow their guidelines carefully. Safety aspects are covered byvarious codes of practices and safety legislation. It is the responsibility of the hatcherymanager to familiarize himself with these matters, and ensure that all workers understandand follow them. Specific training of staff in the correct use of disinfectants is essential.
Disinfectants used must comply with government regulations.
Run sensitivity tests against your hatchery challenges to find the most effectivehatchery sanitizer.
-
8/3/2019 Hatchery Management Guide
34/46
COBB Hach Maagm Gi
COBB28
Propertieso
fdisinfectantc
hemicalsused
inhatcheries
Propertiesinnormaluse
Phe
nols
Quaternary
Ammonium
Compounds
Hypoch
lorites
ando
ther
Chlorine
based
compo
unds
Formaldehyde
Liquid
Gaseous
Iodophors
Glutaraldehyde
Peracetic
acid
Bacteri
cidal
+
+
+
+
+
+
+
+
Sporicidal
+
+
+
+
+
+
Fungicidal
+
+
+
+
+
+
Virucidal
+
+
+
+
+
Toxicanimalsandhumans
+
+
+
Activity
withorganicmatter
+
Detergency
+
Staining
+
Corrosive
Cost
+
+
+
+
+
+ +
+
+ +
++ + +
+ +
+ +
+
+PositiveCharacteristic
Negative
Characteristic
+VariableProperty
-
8/3/2019 Hatchery Management Guide
35/46
COBB 29
COBB Hach Maagm Gi
16. reCOrds
1.
2.
3.
4.
5.
6.
7.
8.
Hatchery records have three (3) main purposes:
to assist in daily or weekly management decisions
to monitor and control egg and chick flow through the hatchery
to assist in overall policy decisions
This necessitates two levels of record keeping.
Individual flock and incubator performance data on fertility, hatchability, number of culls,rots, etc.
The total cost of producing a chick, which should be broken down into labor, electricity,vehicles, etc.
Record sheets should be: easy to complete
easy to understand and interpret
easy to check for accuracy
easy to compare with expected values
Analysis of records is essential in supplementing the managers skill in monitoringincubator performance. This means searching for differences between actual andprojected results.
Reviewing flock records after each hatch will highlight any problem areas and allowcorrective action to be taken at an early stage.
Individual machines can be accurately logged using computerized equipment.
A typical embryo diagnosis report will supply the needed information for evaluating yourhatchery.
The most important aspect of record keeping and data analysis:KEEP IT SIMPLE!
-
8/3/2019 Hatchery Management Guide
36/46
COBB30
COBB Hach Maagm Gi
17. trOuBLesHOOtInG
17.1 MAjOr CAuses OF eGGs FAILInG tO HAtCH
Any investigation of the causes of poor hatchability must include examination of dead inshell. The main points to look for are:
1. Egg size and shell quality
2. Air space
3. Position of embryo within shell
4. Anatomical abnormalities
5. Nutritional abnormalities
6. Unused albumen
7. Age of embryo
The chart below shows the embryonic age distribution and mortality in normal flocks.
Egg storage
Breeder nutrition
True infertility (flock age)
Diseases
Bacterial and mold contamination
Genetics
Egg faults and shell damage
Incubation faults
Candle and candle breakouts
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
Early Middle Late
Candle eggs 10 - 12 days, and residue at hatch
Look for the day that embryonic death occurred
Check flock and machine again
Check same flock in different machine
Check different flock in same machine
Look for mold
Look for patterns
-
8/3/2019 Hatchery Management Guide
37/46
COBB Hach Maagm Gi
COBB 31
17.2 stAGes OF eMBryOnIC deVeLOPMent
roubleshootig
Low fertility Inverted eggs Pre-incubation Rough egg handling
Improper fumigation Insufficient egg
Improper turning holding time
Improper temperature Rough setting of eggs
Improper humidity Contaminated eggs
Improper ventilation Nutritional / drugs / toxins
Low fertility Inverted eggs
Pre-incubation Rough egg handling
Improper fumigation Insufficient egg
Improper turning holding time
Improper temperature Rough setting of eggs
Improper humidity Contaminated eggs
Improper ventilation Nutritional / drugs / toxins
Low fertility Inverted eggs
Pre-incubation Rough egg handling
Improper fumigation Insufficient egg
Improper turning holding time
Improper temperature Rough setting of eggs
Improper humidity Contaminated eggs
Improper ventilation Nutritional / drugs / toxins
Improper turning Inverted eggs
Improper temperature Rough setting of eggs
Improper humidity Contaminated eggs Improper ventilation Nutritional / drugs / toxins
Improper turning Inverted eggs
Improper temperature Rough setting of eggs
Improper humidity Contaminated eggs
Improper ventilation Nutritional / drugs / toxins
Improper turning Inverted eggs
Improper temperature Rough setting of eggs
Improper humidity Contaminated eggs
Improper ventilation Nutritional / drugs / toxins
Stges o deelomet
Day 1 Appearance of
tissue development
Day 2
Tissue developmentvery visible
Appearance ofblood vessels
Day 3
Heart beats
Blood vesselsvery visible
Day 4
Eye pigmented
Day 5
Appearance ofelbows and knees
Day 6
Appearance of beak
Voluntary movementsbegins
-
8/3/2019 Hatchery Management Guide
38/46
COBB Hach Maagm Gi
COBB32
roubleshootig
Improper turning Inverted eggs
Improper temperature Rough setting of eggs Improper humidity Contaminated eggs
Improper ventilation Nutritional / drugs / toxins
Improper turning Insufficient egg
Improper temperature holding time
Improper humidity Rough setting of eggs
Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Improper turning Insufficient egg
Improper temperature holding time
Improper humidity Rough setting of eggs
Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Improper turning Insufficient egg
Improper temperature holding time
Improper humidity Rough setting of eggs
Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Improper turning Insufficient egg
Improper temperature holding time
Improper humidity Rough setting of eggs
Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Improper turning Insufficient egg
Improper temperature holding time
Improper humidity Rough setting of eggs
Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Improper turning Insufficient egg
Improper temperature holding time
Improper humidity Rough setting of eggs Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Stges o deelomet
Day 7
Comb growth begins
Egg tooth beginsto appear
Day 8
Feather tracts seen
Upper and lowerbeak equal in length
Day 9
Embryo starts tolook bird-like
Mouth openingappears
Day 10
Egg tooth prominent
Toe nails
Day 11
Comb serrated
Tail feathersapparent
Day 12
Toes fully formed
First few visiblefeathers
Day 13
Appearance of scales
Body coveredlightly with feathers
-
8/3/2019 Hatchery Management Guide
39/46
COBB Hach Maagm Gi
COBB 33
Stges o deelometDay 14
Embryo turns headtoward large end of egg
Day 15 Gut is drawn into
abdominal cavity
Day 16 Feathers cover
complete body
Albumen nearly gone
Day 17 Amniotic fluid
decreases
Head is between legs
Day 18 Growth of embryo nearlycomplete
Yolk sac is still on outsideof embryo
Head is under the rightwing
Day 19 Yolk sac draws into the
body cavity Amniotic fluid gone
Embryo occupies most ofthe space within the egg(not in the air cell)
Day 20 Yolk sac drawn
completely into body
Embryo becomes a chick(breathing in air in cell)
Internal and externalpip
roubleshootig
Improper turning Insufficient egg
Improper temperature holding time Improper humidity Rough setting of eggs
Improper ventilation Contaminated eggs
Inverted eggs Nutritional / drugs / toxins
Improper turning Inverted eggs
Improper temperature Contaminated eggs
Improper humidity Nutritional / drugs / toxins
Improper ventilation
Improper turning Inverted eggs Improper temperature Contaminated eggs
Improper humidity Nutritional / drugs / toxins
Improper ventilation
Improper turning Inverted eggs
Improper temperature Contaminated eggs
Improper humidity Nutritional / drugs / toxins
Improper ventilation
Hatcher opened too Improper turningmuch during hatch Improper temperature
cycle Improper humidity
Rough transfer Improper ventilation
Transfer cracks Inverted eggs
Wet trays and hatchers Contaminated eggs
Inconsistent transfer Nutritional / drugs / toxins
Hatcher opened too Improper temperature
much during hatch Improper humidity
cycle Improper ventilation Rough transfer Contaminated eggs
Transfer cracks Nutritional / drugs / toxins
Wet trays and hatchers
Inconsistent transfer
Hatcher opened too Improper temperature
much during hatch Improper humidity
cycle Improper ventilation
Rough transfer Contaminated eggs
Transfer cracks Nutritional / drugs / toxins Wet trays and hatchers
Inconsistent transfer
-
8/3/2019 Hatchery Management Guide
40/46
COBB Hach Maagm Gi
COBB34
Digosis o htch roblems
HaHIn ay High temperature - 1 to 19 days
Small eggs
HaHIn a Low temperatures or humidity - 1 to 19 days
Egg storage
Large eggs
Low hatcher temperature
SIky HIkS Temperature too high - 20 to 21 days
Egg storage
Broken eggs in the tray
Inadequate turning
MapSIInS Eggs set upside down
Odd shaped eggs
Inadequate turning
UnHaD navS High temperatures - 1 to 19 days
High humidity - 20 to 21 days
Egg storage
IppD HIkS Temperature variation throughout incubation
Flock age
Egg handling first week of incubation
anMa HIkS Crossed beak: Hereditary or virus infection
Missing eyes: High temperatures or handling
Wry neck: Nutrition
Crooked toes: Temperature and nutrition
Spraddle legs: Smooth hatcher trays
-
8/3/2019 Hatchery Management Guide
41/46
COBB 35
COBB Hach Maagm Gi
This chart describes the relationship between dry bulb temperature, wet bulb temperature,relative humidity and absolute humidity.
Absolutehumidity-vaporpressuremm.ofme
rcury
% RH
% RH
% Relative humidity
Dry bulb temperature F
Wetb
ulbtempe
ratu
reF
Simplified pschrometric chart for se in hatcheries
-
8/3/2019 Hatchery Management Guide
42/46
COBB36
1 mm = 0.0394 in1 cm = 10 mm = 0.3937 in1 m = 100 cm = 1.0936 yd = 3.2808 ft1 km = 1000 m = 0.6215 miles
1 in = 2.54 cm1 ft = 30.48 cm1 yd = 0.9144 m1 mile = 1.609 km
1 g = 0.002205 lb = 0.0353 oz1 kg = 2.2046 lb
1 tonne = 1000 kg = 0.9842 long tons (British)= 1.1023 short tons (USA)
1 oz = 28.35 g1 lb = 0.4536 kg = 453.6 g1 long ton = 1.016 tonnes = 1.016 kg1 short ton = 0.9072 tonnes = 907.2 kg
1 cm2 = 0.155 in2
1 m2 = 1.196 yd2
= 10.7639 ft2
1 in2 = 6.4516 cm2
1 ft2 = 0.0929 m2
1 yd2 = 0.8363 m2
1 litre = 0.22 Imp gal= 0.2624 US gal
1 pt (Imp) = 0.5682 litre1 pt (USA) = 0.4732 litre1 qt (Imp) = 1.1365 litre1 qt (USA) = 0.9463 litre
1 gal (Imp) = 4.54596 litre1 gal (USA) = 3.7853 litre
1 m3/kg/h = 16.016 ft3/lb/h1 ft3/lb/h = 0.0624 m3/kg/h1 m3/h = 0.5886 cfm1 m/sec = 196.85 ft/min
1 kcal = 3.97 BTU1 kcal/m3 = 0.1123 BTU/ft3
1 kcal/kg = 1.8 BTU/lb
1 pascal = 10-2 mbar = 0.021 lbf/ft2
emerture
f45 113.044 111.243 109.442 107.641 105.840 104.039 102.238 100.437 98.6
36 96.835 95.034 93.233 91.432 89.631 87.630 86.029 84.228 82.427 80.6
26 78.825 77.024 75.223 73.422 71.621 69.820 68.019 66.218 64.417 62.6
16 60.815 59.014 57.213 55.412 53.611 51.810 50.09 48.28 46.47 44.6
6 42.85 41.0
COBB Hach Maagm Gi
18. MetrIC COnVersIOns
-
8/3/2019 Hatchery Management Guide
43/46
COBB 37
flock#
I
ncubtor#
Htcher#
ggsSet
otls
percent
flockage
fml.reed
MI.reed
SetDte
ndleDte
rekoutDte
ggage
%production
%actulHtch
Tra
y
Posit
ion
#Eggs/Tray
Unhatched
Infertile
Early
Mid
Late
Pipped
Cull
Chicks
Early
Samp
leSize
%E
st.Hatch
%F
ertility
%H
atchofF
ertile
Trans
Cont.
Cull
Eggs
Up-Side
Down
Dedmbryos
rcks
Tel:(4
79)524-3166
Fax:(4
79)524-3043
Cobb-
Vantress
Incorporated
PO
Box1030,
SiloamS
prings,
AR
72761-1030(USA)
-
8/3/2019 Hatchery Management Guide
44/46
COBB38
COBB Hach Maagm Gi
19. nOtes
-
8/3/2019 Hatchery Management Guide
45/46
COBB 39
COBB Hach Maagm Gi
nOtes
-
8/3/2019 Hatchery Management Guide
46/46
Cobb-Vantress Inc.
PO Box 1030, Siloam Springs
Arkansas 72761, US
Tel: +1 479 524 3166
Email: [email protected]
Cobb Europe Ltd
Oyster House, Severalls Lane, Colchester
Essex CO4 9PD, UK
Tel: +44 1206 835835
Email: [email protected]
Cobb-Vantress Brasil, Ltda.
Rodovia Assis Chateaubriand, Km 10
Cep: 15110-970/Caixa Postal 2
Guapiau-SP-Brasil
Tel: +55 (17)3267 9999
Email: [email protected]
Cobb-Vantress Philippines Inc.
5/F 8101 Pearl Plaza, Pearl Drive
Ortigas Center, Pasig City
Philippines
Tel: +63 2 634 3590